SK592022A3 - Device and method for producing, controlling and applying dose of hydrogen peroxide vapor - Google Patents

Abstract

The device for the production, control and application of a dose of hydrogen peroxide vapor consists of an injection chamber (1), inlet valve (10), outlet valve (11), chamber depressurization valve (9), injection chamber pressure sensor (3), injection valve (2 ), hydrogen peroxide feed pipe (16), carrier medium feed pipe (13) and application pipe (15). Into the closed, heated and depressurized injection chamber (1), the injection valve (2) injects the required amount of liquid hydrogen peroxide (8) onto the hot injection surface of the chamber (12), which changes the state of hydrogen peroxide from liquid to gas, with subsequent evaluation of correctness of the injected amount of liquid hydrogen peroxide (8) by measuring the increase in pressure in the injection chamber (1) and to create the required dose of hydrogen peroxide vapor in the required concentration.

Description

The field of technology

The invention solves the method of production, control and application of small and precise doses of hydrogen peroxide steam intended for sterilization of objects, equipment and premises.

Current state of the art

Currently, continuous hydrogen peroxide steam generators are used to sterilize objects and spaces, which allow continuous production of steam and do not allow recording the amount of steam generated.

The essence of the invention

The device and method of production, control and application of a dose of hydrogen peroxide steam according to the invention solves the production, control and application of hydrogen peroxide steam for sterilization purposes, where small and precise doses of hydrogen peroxide steam are required. The device produces a batch of steam by injecting a precise amount of liquid hydrogen peroxide onto the hot surface of the injection chamber with parameters for each batch of steam separately. After the injection of liquid hydrogen peroxide, there is an increase in pressure in the injection chamber, while its value indicates the content of the required amount of hydrogen peroxide in the produced dose of steam. Using this increase in pressure, the device checks the correctness of each produced dose of hydrogen peroxide steam. The device makes it possible to produce individual doses of steam in different concentrations of hydrogen peroxide.

Description of terms

Carrier medium - compressed gas (e.g. air, nitrogen)

Inlet valve - closes the supply pipe of the carrier medium

Outlet valve - separates the spray chamber from the application pipe

Chamber depressurization valve - separates the injection chamber from the outside environment

Sterilization - a process by which all microorganisms are destroyed in a given environment, object or equipment

Condensation - the physical process of converting a gaseous state into a liquid state

Overview of images on drawings

In picture no. 1 shows a device for the production, control and application of a dose of hydrogen peroxide vapor. It is also an image for the annotation.

In picture no. 2 shows the injection valve.

Examples of implementation of the invention

It is understood that the embodiment of the device according to the invention is presented for illustration and cannot be seen as a limitation of its technical solutions. Those skilled in the art will be able to discover, using no more than routine experimentation, many equivalents to specific embodiments of the invention. Even such equivalents of the manufactured device and its parts will fall within the scope of patent claims. For experts familiar with the state of the art, it cannot be problematic to optimally design the construction and the selection of its elements, therefore these features were not dealt with in detail in this description.

The device and method of production, control and application of a dose of hydrogen peroxide vapor shown in fig. 1 to 2 consists of injection chamber 1, inlet valve 10, outlet valve 11, chamber depressurization valve 9, injection chamber pressure sensor 3, injection valve 2, hydrogen peroxide supply pipe 16, carrier medium supply pipe 13 and application pipe 15. Injection chamber 1 is made as a pressure-sealed container with heating of the injection chamber 5 and temperature sensor of the injection chamber 4. In the injection chamber 1, there is an injection valve 2, opposite to which the injection surface of the chamber 12 is formed. The injection valve 2 is terminated by an injection valve nozzle 19 with an injection valve needle 17 and the seat of the injection valve 18. The device also includes a pressure tank of liquid hydrogen peroxide 6 with a pressure sensor

SK 59-2022 A3 liquid hydrogen peroxide 7 and application pipe 15.

The working cycle of the device according to the invention begins with the opening of the depressurization valve of the chamber 9, whereby the pressure in the heated injection chamber 1 through the depressurization pipe 14 equalizes with the pressure of the surrounding environment. After recording the desired pressure value by the pressure sensor of the injection chamber 3, by closing the chamber depressurization valve 9, the injection chamber 1 is closed under pressure.

In the pressure tank of liquid hydrogen peroxide 6, a pressure higher than the pressure in the injection chamber 1 is maintained above the level of liquid hydrogen peroxide 8 by the compressed air supply line for the peroxide tank 22. By opening the injection valve 2, the required amount of liquid hydrogen peroxide 8 is injected into the injection chamber 1. By spraying liquid hydrogen peroxide 8 on the hot injection surface of the chamber 12, the state of hydrogen peroxide changes from liquid to gaseous and the required dose of hydrogen peroxide vapor with the required concentration is created. After the injection of liquid hydrogen peroxide 8 on the hot injection surface of the chamber 12, the pressure in the injection chamber 1 increases, and by measuring this increase in pressure with the pressure sensor of the injection chamber 3, the device according to the invention evaluates whether the required amount of liquid hydrogen peroxide 8 has been injected.

If the device according to the invention evaluates that the correct amount of liquid hydrogen peroxide 8 has been injected, the device continues with the prescribed work cycle. By opening the inlet valve 10 and the outlet valve 11, the carrier medium begins to flow through the supply pipe of the carrier medium 13 into the spray chamber 1, which fills the spray chamber 1 with a new carrier medium, while this medium pushes the produced dose of hydrogen peroxide vapor through the outlet valve 11 and the application pipe 15 to the desired site of peroxide vapor application 21.

If it is necessary to produce another batch of peroxide steam, the work cycle is repeated.

If the device according to the invention evaluates that an incorrect amount of liquid hydrogen peroxide 8 has been injected into the injection chamber 1, the work cycle starts from the beginning.

A change in the density of the dose of peroxide vapor produced by the device according to the invention can be achieved by changing individual parameters during the injection of liquid hydrogen peroxide 8 into the injection chamber 1, namely the injection pressure of liquid hydrogen peroxide 8, the opening length of the injection valve 2, the temperature of the injection chamber 1 and the temperature of the injection surface of the chamber 12, the pressure of the carrier medium with which the injection chamber 1 is flushed and the length of the flushing of the injection chamber 1.

It is particularly important to maintain the correct and constant temperature of the spray surface of the chamber 12. Since liquid hydrogen peroxide 8 is sprayed onto this spray surface of the chamber 12, the spray surface of the chamber 12 rapidly cools, and therefore this surface requires a special approach to its heating.

For the correct application of hydrogen peroxide vapor to the desired place of application of peroxide vapor, it is necessary to maintain the correct temperature of the application pipe 15 and all surfaces of pipes and valves that come into contact with hydrogen peroxide vapor.

The device, due to its construction and method of production, control and application of the steam dose, is also suitable for the production of steam from other liquid substances and compounds such as hydrogen peroxide.

SK 59-2022 A3

List of relationship tags

1) Injection chamber

2) Injection valve

3) Injection chamber pressure sensor

4) Injection chamber temperature sensor

5) Heating of the injection chamber

6) Pressure tank of liquid hydrogen peroxide

7) Liquid hydrogen peroxide pressure sensor

8) Liquid hydrogen peroxide

9) Chamber depressurization valve

10) Inlet valve

11) Outlet valve

12) Injection surface of the chamber

13) Feed pipe of the carrier medium

14) Pressure relief pipe

15) Application pipeline

16) Supply pipe of hydrogen peroxide

17) Injection valve needle

18) Injection valve seat

19) Injection valve nozzle

20) Heating of the application pipe

21) Place of application of peroxide steam

22) Compressed air supply pipe for the peroxide tank

Claims (3)

1. A device for the production, control and application of a dose of hydrogen peroxide steam, characterized by the fact that it consists of an injection chamber (1), which is designed as a pressure-sealed vessel with heating (5) of the injection chamber (1), a pressure sensor (3) injection chamber (1) and the temperature sensor (4) of the injection chamber (1), further from the inlet valve (10), which closes the supply pipe (13) of the carrier medium, from the outlet valve (11), which separates the injection chamber (1) ) from the application pipe (15), then from the pressure relief valve (9) of the chamber, the injection valve (2) opposite to which the injection surface (12) is created in the injection chamber (1), while the injection valve (2) ends with a nozzle (19) of the injection valve (2) with the needle (17) of the injection valve (2) and the seat (18) of the injection valve (2), further from the supply pipe (16) of the hydrogen peroxide, the supply pipe (13) of the carrier medium and from the pressure tank (6) of the liquid of hydrogen peroxide (8) with a pressure sensor (7) of liquid hydrogen peroxide (8). 2. A method of production, control and application of a dose of hydrogen peroxide vapor by the device according to claim 1, characterized in that the required amount of liquid hydrogen peroxide (8) is injected into the closed, heated and depressurized injection chamber (1) by means of an injection valve (2) on a hot injection area of the chamber (12), which will change the state of hydrogen peroxide from liquid to gaseous with subsequent evaluation of the correctness of the injected amount of liquid hydrogen peroxide (8) by measuring the increase in pressure in the injection chamber (1) and the creation of the required dose of hydrogen peroxide vapor in the required concentration, this dose of hydrogen peroxide vapor is subsequently applied in such a way that by opening the inlet valve (10) and the outlet valve (11) the carrier medium begins to flow into the spray chamber (1) through the supply pipe (13) of the carrier medium, which fills the spray chamber (1) with a new carrier medium, while this medium pushes the produced dose of hydrogen peroxide vapor through the outlet valve (11) and the application pipe (15) to the desired place of peroxide vapor application (21). 3. The method of production, control and application of a dose of hydrogen peroxide vapor according to claim 2, characterized in that the needle (17) of the injection valve (2) moves in the nozzle (19) of the injection valve (2) when the injection valve (2) is opened and closed. ) whereby the wall of the nozzle (19) of the injection valve (2) is mechanically cleaned.